Most every device and electronic piece of equipment is outfitted with a printed circuit board (PCB), including smartphones, TVs, appliances, and more. You know the composite. The boards are laminated ...

In today’s electronics industry, compact, efficient, and versatile PCBs are in high demand. Rigid-flex technology allows engineers to design boards that bend and flex without compromising performance ...

Flexible printed circuit boards (PCBs) aren’t much different than rigid boards during the design phase, except that the designer must account for the mechanical complexity associated with flex ...

Printed circuit boards can be square, round, octagonal, or whatever shape you desire. But there’s little choice when it comes to the third dimension: most PCBs are flat and rigid. Sure, you can make ...

Building electronics in unconventional form factors with high packaging density is possible thanks to three-dimensional circuit designs using flex and rigid-flex printed circuit boards (PCBs).

If there are any true constants in the formula for the evolution of modern electronics, the push to work at increasingly smaller scales arguably tops the list. Where convenience and practicality ...

The advent of microcontroller modules like the Arduino opened up ability to build and program interactive objects to a whole generation of makers. Today these modules make it simple to control ...

Flexible electronics of one kind or another have been around for more than 20 years. What most now call flexible printed circuits (FPCs) are branching out to rigid-flex designs as well as highly ...

Though threading is a old concept in computer science, and fabric computing has been a term for about thirty years, the terminology has so far been more metaphorical than strictly descriptive. [Cedric ...